BACKGROUND/OBJECTIVES: Peak force (PF) reflects maximal strength, while early rate of force development (RFD; 0-100 ms) indicates explosive neuromuscular output. The Athletic Shoulder (ASH) test is gaining popularity in overhead athlete profiling, but its use for assessing explosive strength in various shoulder positions is underexplored. This study compared PF and RFD at shoulder abductions of 180° (ASH-I), 135° (ASH-Y), and 90° (ASH-T) in baseball players. METHODS: Seventeen male athletes (age 22.7 ± 4.2 years; height 186.3 ± 7.3 cm; body mass 83.9 ± 10.1 kg) performed isometric ASH tests with the dominant arm. PF, PF relative to body mass (PF/BM), and early RFD were analysed. RESULTS: ASH I showed 25% significantly higher PF (182 ± 41 N), PF/BM (2.15 ± 0.39 N/kg), and 40% higher RFD (545 N/s) than ASH Y or T (all p < 0.001), which did not differ significantly. PF showed excellent reliability (ICC = 0.86-0.93); RFD showed moderate-to-good reliability (ICC = 0.75-0.81). Smallest worthwhile changes were ~5% for PF and ~15% for RFD. CONCLUSIONS: Maximal isometric shoulder strength and explosiveness were highest at 180° abduction in baseball athletes, with no significant difference between 135° and 90°. PF demonstrated excellent reliability, while early RFD showed moderate to good reliability and higher variability, highlighting the need for repeated measures. These findings provide specific position reference values and support the inclusion of multiple abduction angles in shoulder strength assessment to detect neuromuscular deficits and monitor training adaptations in baseball athletes.

Department of Biological and Medical Sciences Faculty of Physical Education and Sports Comenius University in Bratislava 814 69 Bratislava Slovakia

School of Health and Sport Sciences Liverpool Hope University Liverpool L16 9JD UK

Sport Research Centre Charles University 162 52 Prague Czech Republic

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